KR101647331B1 - Track lighting device - Google Patents

Abstract

The present invention relates to a track lighting device which can uniformly or selectively perform wireless control on a plurality of lightings supported in a track, and can provide a monitoring or an observing function of a space having a lighting device installed therein by having at least one sensor module.

Description

Track lighting device

The present invention relates to a track lighting device. More specifically, the present invention relates to a method and apparatus for controlling a plurality of lights mounted on a track in a batch or selective manner and capable of providing a monitoring or monitoring function of a space in which the lighting apparatus is installed by providing at least one sensor module To a track lighting device.

In the case of conventional lighting devices, since the lighting is fixed, it is not easy to provide various lighting effects in a wide space such as a gymnasium, a museum, an exhibition hall, a shop, and a large discount store.

Recently, a track illuminating apparatus which is enlarged in use is a type of lighting in which tracks are mounted on a ceiling and lights are installed along the tracks. Such a track illuminating apparatus can appropriately mount a lighting apparatus at a desired position by a installer or an administrator, It is easy to adjust the angle of the lighting supported through the track so that it can be flexibly coped with the lighting environment.

However, in the conventional track illuminating apparatus, a plurality of track illuminating apparatuses are connected and installed in the indoor or outdoor environment. In this case, the plurality of track illuminating apparatuses are collectively controlled, There is a problem in that it is difficult to control individual lighting or lighting by a group or a group, and thus there is a limit in flexible lighting control.

In order to solve the above problems, a method has been introduced in which a communication module and a control module are added to each of a plurality of lights mounted on a track to control the lights collectively, individually, or group by group. The communication module and the control module must be added as many times as the number of the track illuminating devices. Therefore, the design and production of the installed track illuminating device may be complicated.

Therefore, a track lighting apparatus capable of controlling a plurality of lights mounted on a track collectively or individually by one control means and controlling a plurality of track lighting apparatuses installed for indoor or outdoor lighting by intervals Is required.

According to an aspect of the present invention, there is provided a method of controlling a plurality of lights mounted on a track, the method comprising the steps of: Which is capable of providing a track illuminating device.

Specifically, the present invention provides a track lighting apparatus capable of collectively or selectively controlling a plurality of lights mounted on a track through a single control means capable of wirelessly controlling the same.

A further object of the present invention is to provide a track lighting apparatus which can easily control a plurality of lights mounted on a track through a user terminal by grouping them.

The present invention also provides a track lighting apparatus which can increase the operating efficiency of the track lighting apparatus by adding a sensor for sensing detection information outside the track lighting apparatus to the means for controlling the track lighting apparatus, .

According to another aspect of the present invention, there is provided a track lighting apparatus comprising: a plurality of lights; a track for supporting the light and distributing a current to the light through a current supply line provided therein; A sensor module including at least one of a current sensor for sensing light in the illumination space, an infrared sensor for detecting infrared rays in the illumination space of the illumination, and a flame sensor for detecting flame in the illumination space, A communication module for receiving a control signal and transmitting sensed information sensed by the sensor module to the user terminal; supplying and blocking a current supplied to the current supply line according to at least one of the control signal and the sensing information; A control module for controlling and a current supply line for supplying current to the current supply line under the control of the control module And may include a power module to shut down.

The track lighting device may further include a smart track switch for controlling the track lighting device according to at least one of the control signal and the sensing information. The sensor module, the communication module, the control module, The power module may be mounted inside the smart track switch.

In the present invention, the current sensor senses a current supplied to the current supply line to detect a consumed current amount consumed in the track illuminator, and the consumed current amount is transmitted to the user terminal through the communication module .

In the present invention, when the infrared sensor fails to detect infrared rays in the illumination space for a predetermined time, the control module cuts off the current supplied to the current supply line, Can be controlled.

In the present invention, when the flame sensor detects a flame in the illumination space, the communication module may transmit a fire occurrence signal to the user terminal.

In the present invention, the track illuminating device may further include a fire alarm, wherein when the flame sensor detects a flame in the illumination space, the control module controls the communication module such that a fire occurrence signal is transmitted to the user terminal And the fire alarm is operated to output a fire occurrence notification.

 In the present invention, the power module may supply or cut off current to the current supply line by turning on / off a solid state relay (SSR) under the control of the control module.

In the present invention, the tracks are provided with a plurality of current supply lines in parallel along the longitudinal direction of the track, and each of the current supply lines includes a current-carrying portion capable of conducting electricity and an insulating portion Wherein each of the current supply lines is disposed so that each of the current-carrying portions is not in contact with each other, and a plurality of the lights are spaced apart from each other at a position of a current-carrying portion of each current supply line along a longitudinal direction of the track, The power module may selectively or collectively turn on or off the plurality of lights by supplying or blocking current to some or all of the plurality of current supply lines under the control of the control signal.

In the present invention, in the current supply line, the insulating portion may be provided longer than the conductive portion.

In the present invention, the power module may include a number of the plurality of current supply lines, one for each of the current supply lines, and individually controlled by the control module to supply current to the current supply lines Supply or shut down.

In the present invention, the plurality of current supply lines may be a structure in which each of the current supply lines is laminated.

The track lighting apparatus according to an embodiment of the present invention collectively or selectively remotely controls a plurality of lights mounted on a track through a single control means that wirelessly communicates with the track lighting apparatus, It is possible to provide control flexibility.

Further, a plurality of lights mounted on the track through the user terminal are grouped and simply controlled, thereby enabling more precise lighting control.

In addition, by adding a sensor that detects sensing information outside the track illuminating device, the track illuminating device can enable remote monitoring and smart control through the sensing information.

1 is a block diagram of a track lighting apparatus according to an embodiment of the present invention.
Figure 2 shows a track and illumination in accordance with an embodiment of the present invention.
Figure 3 shows the smart track switch disconnected in a track lighting device according to an embodiment of the invention.
4 shows a smart track switch coupled to one end of a track in a lighting device according to an embodiment of the invention.
5 is a perspective view of a track lighting device according to an embodiment of the present invention.
6 is a longitudinal sectional view of a track lighting apparatus according to an embodiment of the present invention.
FIG. 7 is a longitudinal sectional view of a track lighting apparatus in which the lighting is turned on according to an embodiment of the present invention; FIG.
FIG. 8 illustrates a plurality of track lighting devices according to an embodiment of the present invention.
FIG. 9 shows that a plurality of track illuminating devices are entirely lighted controlled in accordance with an embodiment of the present invention.
10 shows that a part of a plurality of track illuminators is controlled to be lighted in accordance with an embodiment of the present invention.
11 is a longitudinal sectional view of a track illuminator according to another embodiment of the present invention.
Figure 12 shows two current supply lines in accordance with one embodiment of the present invention.
FIG. 13 is a longitudinal sectional view of a track lighting apparatus having two current supply lines according to an embodiment of the present invention, and in which the entire lighting is turned on. FIG.
FIG. 14 is a longitudinal sectional view of a track lighting apparatus having two current supply lines and group lighting according to an embodiment of the present invention. FIG.
15 is a configuration diagram of a track lighting device having two current supply lines according to an embodiment of the present invention.
FIG. 16 shows that a plurality of track lighting devices including a plurality of current supply lines are group-controlled according to an embodiment of the present invention.

While the present invention has been described in connection with certain exemplary embodiments, it is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, is intended to cover various modifications and similarities. However, it should be understood that the present invention is not limited to the specific embodiments, but may include all changes, equivalents, and alternatives to the spirit and scope of the present invention.

In describing the present invention, if it is determined that a detailed description of the related art may unnecessarily obscure the gist of the present invention, a detailed description thereof can be given.

Also, in this specification, when an element is referred to as being " connected " or " connected " with another element, the element may be directly connected or directly connected to the other element, As long as the opposite substrate does not exist, it may be connected or connected via another component in the middle.

1 is a block diagram of a track lighting apparatus according to an embodiment of the present invention.

The track lighting apparatus 1000 according to an embodiment of the present invention includes a plurality of lights 100a to 100d and a plurality of light sources 100a to 100d for supporting the lights 100a to 100d, A sensor module (300) including at least one sensor, a wireless communication unit for wirelessly communicating with the user terminal in a Bluetooth manner, a control signal from the user terminal, A communication module (400) for transmitting the sensed information sensed by the module (300) to the user terminal, and a controller for controlling supply and interruption of current supplied to the current line (210) according to at least one of the control signal and the sensing information And a power module 600 that supplies or cuts off current to the current supply line under the control of the control module 500. [

Since the communication module 400 communicates with the user terminal through the Bluetooth method, an intermediate connection device which is essentially used in a Zigbee or Wi-Fi system, which has been mainly used as a near-field wireless communication method, is omitted It is possible to simplify the lighting system and to solve the problem that the aesthetics of the space in which the track lighting device 1000 is installed are reduced due to the provision of the intermediate connection device.

Figure 2 shows tracks and illumination, in accordance with an embodiment of the present invention.

Although the track 200 is shown as a linear line track, it may be formed of a circular loop track as well as a line track. A transformer 150 may be provided between the track 200 and the lights 100a to 100d to adjust the current of the track 200 to the voltages of the lights 100a to 100d.

The sensor module 300 includes a current sensor 310 for sensing a current supplied to the current supply line 200, an infrared sensor 320 for detecting infrared rays in the illumination space of the illumination, And a flame sensor 330 for sensing the flame. Here, the illumination space may mean a distance at which the light source of the illumination can be visually sensed when the illumination is turned on, or a space region in the indoor or outdoor where the track illumination apparatus 1000 is installed have.

The current sensor 310 senses a current supplied to the current supply line 210 to detect a consumed current amount consumed in the track lighting apparatus 1000 and the consumed current amount is supplied to the communication module 400 To the user terminal.

The current sensor 310 senses AC and DC current and is connected to the power supply module 600 or the current supply line 200 and is supplied from the power supply module 600 to the current supply line 200 Current can be detected. Here, since the amount of current supplied to the current supply line 200 is the amount of current consumed in the track illuminator 1000, the current sensor 310 senses the current applied to the current supply line 200 The amount of consumed current consumed in the track lighting apparatus 1000 can be detected.

The amount of consumed current detected by the current sensor 310 may be wirelessly transmitted to the user terminal through the communication module 400. Accordingly, the user can remotely grasp the amount of current consumed by the track lighting device 1000 transmitted to the user terminal in real time, and can save electricity consumption by more efficiently using electricity by grasping the amount of consumed current have.

The infrared sensor 320 is a sensor that operates by sensing an infrared wavelength of a moving object in the illumination space. More preferably, the infrared sensor 320 can be operated by detecting an infrared wavelength.

The place where the track lighting device 1000 is installed is mostly operated in a place where the floating population is large, so as to provide the people with the activity and the comfort of the environment in the place. However, if a person is not present in the track lighting device 1000, a large amount of current can be wasted regardless of the function of the track lighting device 1000. In addition, when a plurality of the track lighting devices 1000 are provided and are installed in each zone, for example, in the case of a store, a person moves through various zones and sees the goods displayed on the shop, And in this case, if the track lighting apparatus 1000 is always operated regardless of the presence of a person, it may lead to inefficient use of the track lighting apparatus 1000.

Therefore, when the infrared sensor 320 senses the infrared wavelength in the illumination space and can not detect the infrared wave for a predetermined time, the control module 500 cuts off the current supplied to the current supply line 210 So as to control the power module 600 so that the lights 100a to 100d are turned off. That is, the track lighting apparatus 1000 can be controlled so as to detect movement of a person and to illuminate only the lighting in a space where the person is located. In addition, in a place where a plurality of the track lighting devices 1000 are installed, the infrared sensors 320 included in each of the track lighting devices 1000 individually operate, Only the lights 100a to 100d of the track lighting apparatus 1000 can be lit.

In addition, when the infrared sensor 320 detects infrared rays in the illumination space, the control module 500 supplies current to the current supply line 210 or maintains the current in the supply state, It is possible to control the power module 600 such that the lamps 100a to 100d are lit or the lights 100a to 100d are maintained. That is, when the infrared sensors 320 detect the infrared wavelengths in the illumination space while the lights 100a to 100d are on, the control module 500 determines that the lights 100a to 100d are turned on When the infrared sensor 320 detects infrared wavelengths in the illumination space while the lights 100a to 100d are turned off, the control module 500 May control the power module 600 to turn on the lights 100a to 100d.

The place where the track lighting device 1000 is installed may be a place where a person has a lot of flowing water, and a place where the risk of fire is high. In recent years, fire alarms are installed in each building, and alarms are emitted in case of a fire, but they often fail due to frequent breakdowns. Accordingly, the track lighting apparatus 1000 includes a flame detection sensor 330 for detecting a flame generated in a fire, so that when a fire occurs in the place where the track lighting apparatus 1000 is installed, can do.

The flame sensor 330 may sense a wavelength in a range of 760 nm to 1100 nm, which is a wavelength generally emitted from a flame. When the flame sensor 330 detects a wavelength within the flame range, May wirelessly transmit a fire occurrence signal to the user terminal. Therefore, the user who receives the fire occurrence signal can take immediate action against the fire.

Further, when the flame sensor 330 senses a flame in the illumination space, the control module 1000 controls the flame sensor 330 to generate a fire The communication module 400 can be controlled so that a signal is transmitted to the user terminal, and the fire alarm can be operated to output a fire occurrence notification. Here, the fire occurrence notification may be an alarm and / or an alarm sound.

Accordingly, when a fire occurs in a place where the track lighting device 1000 is installed, a user can receive a fire generation signal through the user terminal wirelessly communicating with the communication module 400, People present at the place where the track lighting device 1000 is installed can be immediately evacuated, thereby minimizing damage to human lives and property.

The power module 600 can supply or cut off current to the current supply line 220 by turning on / off a solid state relay (SSR) under the control of the control module 500.

The contactless relay is an electronic switch for determining on / off of the current supply. Unlike conventional electromechanical relays, in which the on / off of the current coils is determined according to contact or non-contact of existing mechanical contacts, The switch determines the ON / OFF state of the current supply without the contact point. The switch has a faster response speed than the conventional electromechanical relay, has a relatively long life, and operates as noiseless.

The track lighting apparatus 1000 further includes a smart track switch 700 for controlling the track lighting apparatus 1000 according to at least one of the control signal and the sensing information, The communication module 400, the control module 500, and the power module 600 may be installed inside the smart track switch 700. That is, the sensor module 300, the communication module 400, the control module 500, and the power module 600 may be included in the smart track switch 700 to form one unit.

Accordingly, in this specification, when the smart track switch 700 is referred to or illustrated in the figures, the terms and drawings are included in the smart track switch 700 as well as the smart track switch 700 track switch 700 The communication module 400, the control module 500, and the power module 600, which are the same as the first embodiment.

Figure 3 shows a smart track switch disconnected in a track lighting device according to an embodiment of the invention, Figure 4 shows a smart track switch in a lighting device according to an embodiment of the invention, Respectively.

The smart track switch 700 may be configured such that in the track lighting apparatus 1000 the remaining components except for the plurality of lights 100a through 100d and the track 200 mounting the lights, The communication module 400, the control module 500, and the power module 600. The SmartTrack switch 700 includes a sensor module 300, a communication module 400, a control module 500, and the power module 600, The track illuminating device 1000 may be constructed in a simpler structure.

In addition, the smart track switch 700 may be replaced with a power jack that supplies current to the track lighting device in a track lighting device that does not have a control module, a communication module, and a sensor module and performs only basic lighting functions.

Therefore, in a track lighting device which is used in the past and which provides only basic lighting functions, by replacing the power jack with the smart track switch 700, the track lighting device can be provided with a function of supplying electric current, Remote control, remote control, and smart control through a sensor through a communication module that wirelessly communicates with a user terminal, a sensor module that senses sensing information, and a control module that controls current.

Hereinafter, the operation of the track lighting device 1000 according to an embodiment of the present invention will be described in detail.

5 is a perspective view of a track lighting device according to an embodiment of the present invention.

The track lighting apparatus 1000 may be wirelessly communicated with the user terminal 800 and may be turned on through a control signal received from the user terminal 800. [ 5, when a user selects a lighting indication 811 displayed on the display unit 810 of the user terminal 800, a control signal for lighting the lighting is displayed on the display unit 810 of the track lighting apparatus 1000 The control module 500 controls the power supply module 600 to supply current to the current supply line 220 according to the control signal transmitted to the communication module 400. [ And the power module 600 may supply current to the current supply line 220 according to the control of the control module 500 to turn on the lights 100a to 100d.

On the other hand, when the user selects the turn-off indication 812 through the user terminal 800, the track illuminating apparatus 1000 outputs a control signal for turning off the lights 100a to 100d received from the user terminal 800 It is possible to turn off the lights 100a to 100d.

FIG. 6 is a longitudinal sectional view of a track lighting apparatus according to an embodiment of the present invention, and FIG. 7 illustrates a longitudinal section and a user terminal of a track lighting apparatus in which the lighting is turned on according to an embodiment of the present invention.

The track 200 may include a current supply line 210 in at least one of its inner and outer sides. More preferably, the track 200 is provided with a pair of current supply lines 210 on both sides of the track 200 so as to be able to make contact with the points 110 of the lights 100a to 100d The current supplied through the power module 600 may be moved along the current supply line 210 and supplied to the lights 100a through 100d through the contact 110. [

Here, the contacts 110 of the lights 100a to 100d may be always in contact with the current supply line 210, and the lights 100a to 100d may be in contact with the current supply line 210 And may be turned on or off according to the control signal.

6 and 7, the lights 100a to 100d connected to the current supply line 210 are connected to the current supply line 210 by a control signal sent from the user terminal 800, And can be turned on by receiving a current flowing therethrough.

In general, a plurality of the track lighting apparatuses 100 may be connected in series in the indoor or outdoor environment. In this case, a plurality of the track illuminating devices 100 are connected to each of the smart track switches 700, that is, the sensor module 300, the communication module 400, the control module 500, 600), wherein the user can individually or collectively control the plurality of track illuminators 1000 through the user terminal.

FIG. 8 illustrates a plurality of track lighting devices according to an embodiment of the present invention.

Each of the plurality of track illuminating devices 1000a to 1000c includes a smart track switch 700 so that each of the track illuminating devices 1000a to 1000c is controlled through the connected smart track switches 700a to 700c . In this case, the plurality of track illuminators 1000a to 1000c may be collectively controlled or partially selected through the user terminal 800 and controlled.

FIG. 9 shows that a plurality of track illuminating devices are entirely lighted controlled in accordance with an embodiment of the present invention.

9 shows that a user lights a plurality of the track illuminating devices 1000a to 1000c collectively through the user terminal 800. In this case, a plurality of the track illuminating devices 1000a to 1000c, Each of the smart track switches 700a to 700c may individually receive a control signal from the user terminal 800 to illuminate the light or the plurality of track illuminators 1000a to 1000c may be a The smart track switch 700 may collectively receive one control signal from the user terminal 800 and turn on the illumination.

10 shows that a part of a plurality of track illuminators is controlled to be lighted in accordance with an embodiment of the present invention.

10, when a plurality of the track illuminators 1000a to 1000c are installed in one place, the user individually controls each of the track illuminators 1000a to 1000c through the user terminal 800, It is possible to control only the illumination of some of the track illuminating devices 1000a and 1000c to be turned on. Therefore, in a place where a person's flow always changes like a shop, it is possible to save current by lighting only necessary track lights without lighting unnecessary track lights.

The track illuminating apparatuses 1000a to 1000c according to the embodiment of the present invention can illuminate and illuminate the respective track illuminating apparatuses 1000a to 1000c through the smart track switches 700a to 700c provided for each track, Control of turning off may be possible. However, according to another embodiment of the present invention, the plurality of lights 100a to 100d included in the track illuminating apparatus 1000 may be separately controlled. In this case, the track 200 includes a plurality of current supply lines 210 provided to distribute current to the lights 100a to 100d, and the plurality of current supply lines 210, 100a to 100d can be collectively or individually controlled.

11 is a longitudinal sectional view of a track illuminator according to another embodiment of the present invention.

The track 200 may include a plurality of the current supply lines 210a and 210b disposed along the longitudinal direction of the track 200 in parallel.

The current supply lines 210a and 210b may be a conductive plate or may be a wire. However, the present invention is not limited to the shape of the conductive plate and the shape of the electric wire, and it is possible to supply electric current to the lights 100a to 100d by receiving the current from the power module 600.

Also, the plurality of current supply lines 210a and 210b may be in the form of being in contact with each other in a laminated form. Here, if the plurality of current supply lines 210a and 210b are in contact with each other while current flows, the track lighting apparatus 1000 may fail or fire.

Therefore, in order to prevent a plurality of the current supply lines 210a and 210b from coming into contact with each other and causing an accident, each of the current supply lines 210a and 210b is not energized with the current- The insulated portions i may be alternately provided and each of the current supply lines 210a and 210b may be arranged so that the respective current transmission portions c are not in contact with each other. Here, the insulating portion i may be formed by coating the conductive portion c with an insulating material, or may be coated with an insulating coating agent.

Figure 12 shows two current supply lines in accordance with one embodiment of the present invention.

12, each of the current supply lines 210a and 210b has a configuration in which the power supply unit c and the insulation unit i alternate with each other and the insulation unit i is connected to the power supply unit c The plurality of current supply lines 210a and 210b are designed so that only one of the plurality of current supply lines 210a and 210b included in one of the current supply lines 210a and 210b is located on the same straight line, It is possible to prevent the contact of the intermittent conductive portion c. That is, the regions I, III, V, VII, and IX of one of the plurality of current supply lines 210a and 210b and the plurality of current supply lines 210a and 210b, (I, II, IV, VI, VIII), which are overlapped with each other, can be provided in the longitudinal direction of the track 200 alternately.

The plurality of lights 100a to 100b are mounted on the positions of the conductive parts c along the longitudinal direction of the track 200 and are mounted to be spaced apart from each other along the longitudinal direction of the track 200 . Accordingly, as shown in FIG. 11, a plurality of the lights 100a to 100b are alternately mounted on the two current supply lines 210a and 210b, so that they can be classified into two groups and controlled.

The power supply module 600 supplies or cuts off a current to all of the plurality of current supply lines 210a and 210b under the control of the control signal to collectively light the plurality of lights 100a to 100d Or off. That is, when the power module 600 supplies current to all of the plurality of current supply lines 210a and 210b, the plurality of current supply lines 210a and 210b are connected to the light All the lights 100a to 100d connected to the track 200 can be turned on by supplying a current.

FIG. 13 is a longitudinal sectional view of a track lighting device having two current supply lines according to an embodiment of the present invention and a preliminary lighting.

13, when the user selects the entire lighting indication 813 in the user terminal 800 and current is supplied to the plurality of current supply lines 210a and 210b, the plurality of current supply lines 210a , 210b can be seen in a fully lighted embodiment.

In addition, the power module 600 supplies or cuts off a current to a part of the plurality of current supply lines 210a and 210b according to control of the control signal to selectively apply the plurality of lights 100a to 100d It can be turned on or off. That is, when the power module 600 supplies a current to a part 210a of the plurality of current supply lines 210a and 210b, the current supplied to the current supply line 210a, (110b, 110d) may be lighted by receiving a current.

14 is a longitudinal sectional view of a track illuminator having two current supply lines and selectively illuminated according to an embodiment of the present invention.

14, when a user selects a group 1 lighting indication 814 in the user terminal 800, a current (current) is applied to a supply line 210a corresponding to group 1 of the plurality of current supply lines 210a and 210b, The lights 110b and 110d connected to the corresponding supply line 210a are turned on.

As described above, when the track 200 includes a plurality of current supply lines 210a and 210b, the plurality of lights 100a to 110d alternately turn on the current supply lines 210a and 210b, The plurality of lights 100a to 110d can be grouped as an odd number or an even number through the plurality of current supply lines 210a and 210b since they are disposed along the length direction of the track 200. [

Therefore, a plurality of the lights 100a to 100d included in the track illuminating apparatus 1000 may be collectively or groupily grouped in a place where the track illuminating apparatus 1000 is used, for example, So that more flexible lighting control can be achieved.

15 is a configuration diagram of a track lighting device having two current supply lines according to an embodiment of the present invention.

15, the power supply modules 600a and 600b are provided for a plurality of the current supply lines 210a and 210b and are connected to the current supply lines 210a and 210b, respectively, Module 500 to supply or cut off current to the current supply lines 210a and 210b, respectively.

As described above, the power supply modules 600a and 600b are provided for a plurality of the current supply lines 210a and 210b, and are connected to the current supply lines 210a and 210b, respectively, It is preferable to control the current supply lines 210a and 210b. However, in some cases, one power supply module 600 may supply current to the plurality of current supply lines 210a and 210b. In this case, one power module 600 can collectively supply current to the plurality of current supply lines 210a and 210b, and can also supply current individually.

FIG. 16 shows that a plurality of track lighting devices including a plurality of current supply lines are group-controlled according to an embodiment of the present invention.

16, a plurality of the track illuminating devices 1000a, 1000b, and 1000c wirelessly communicate with the user terminal 800, receive control signals from the user terminal 800, , 1000b, and 1000c. In this case, as described above, a plurality of the track illuminating devices 1000a, 1000b, and 1000c can be collectively or individually controlled through the user terminal 800 to supply current.

In addition, by receiving a control signal from the user terminal 800 and controlling the current to be supplied to only a part of the plurality of current supply lines 210a and 210b, the current is supplied to each of the track illuminators 1000a, 1000b, and 1000c The plurality of lights 100a to 100d may be turned on odd-numbered or even-numbered times.

As described above, when a plurality of track lighting apparatuses 1000 according to an embodiment of the present invention are installed in one place, each of the track lighting apparatuses 1000a, 1000b, and 1000c may individually or collectively Where the track 200 of each of the plurality of track illuminators 1000a, 1000b and 1000c includes a plurality of the current supply lines 210a and 210b, The lighting apparatuses 1000a, 1000b and 1000c can regroup and control the lights 100a to 100d included in each of the plurality of track lighting apparatuses 1000a, 1000b and 1000c in addition to the control for each track, Illumination control can be enabled.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention.

Therefore, the embodiments disclosed in the present invention are intended to illustrate rather than limit the scope of the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments.

The scope of protection of the present invention should be construed according to the following claims, and all technical ideas within the scope of equivalents should be construed as falling within the scope of the present invention.

100a, 100b, 100c: illumination 200: track
300: Sensor module 400: Communication new module
500: control module 600: power module
700: Smart Track Switch

Claims (11)

A plurality of lights;
A track for supporting the illumination and distributing current to the illumination through a current supply line provided therein;
A sensor module including at least one of a current sensor for sensing a current supplied to the current supply line, an infrared sensor for detecting infrared rays in an illumination space of the illumination, and a flame sensor for detecting a flame in the illumination space.
A communication module for wirelessly communicating with a user terminal in a Bluetooth manner, receiving a control signal from the user terminal, and transmitting the sensed information sensed by the sensor module to the user terminal;
A control module for controlling supply and blocking of a current supplied to the current supply line according to at least one of the control signal and the sensing information;
A power module for supplying or blocking current to the current supply line under the control of the control module; And
And a smart track switch mounted inside the communication module, the control module, and the power module, the smart track switch controlling a plurality of lights according to at least one of the control signal and the sensing information,
The current supply lines provided in the tracks are formed in the form of a conductive plate provided in a multilayered manner on opposite sides of a track, and the power supply module is provided for a plurality of the current supply lines, And are individually controlled by the control module to supply or cut off current to the current supply lines respectively connected thereto,
The laminated current supply lines are alternately arranged in the longitudinal direction so as not to be energized with the energized current passing part, and the length of the insulating part alternately provided in each of the current supplying lines is larger than that of the current passing part And the plurality of the lights are grouped and electrically connected to the current-carrying parts of one current supply line for each group, So that control is possible for each group by each power module. delete The method according to claim 1,
Wherein the current sensor detects a current supplied to the current supply line to detect a consumed current amount consumed in the track illuminator, and the consumed current amount is transmitted to the user terminal through the communication module. Lighting device. The method according to claim 1,
When the infrared sensor fails to detect infrared rays in the illumination space for a predetermined time, the control module controls the power supply module so that the illumination is turned off by interrupting a current supplied to the current supply line Track lighting device. The method according to claim 1,
Wherein when the flame sensor detects a flame in the illumination space, the communication module transmits a fire occurrence signal to the user terminal. 6. The method of claim 5,
Wherein the track lighting device further comprises a fire alarm, wherein when the flame sensor detects a flame in the illumination space, the control module controls the communication module to send a fire generation signal to the user terminal, And outputs a fire occurrence notification. The method according to claim 1,
Wherein the power module turns on / off a solid state relay (SSR) according to control of the control module to supply or cut off current to the current supply line. delete delete delete delete

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